KR101393588B1 - Prevention reflection and hotspot device by illumination for face recognition - Google Patents

Abstract

More particularly, the present invention relates to a face lighting system for a face recognition system, and more particularly, to a face lighting system for a face recognition system, To a lighting device for recognizing the face which increases the brightness of the face. In order to improve the reflected light appearing on the face of the subject and the reflection on the glasses by adjusting the direction of the light source and the irradiation direction of the light through the illumination differently, the illumination includes an LED light source; A convex lens for receiving and diffusing light of the LED light source; A prism sheet on which at least one prism that receives diffused light and changes its direction is arranged; A diffuser plate, and a reflector. The light source is disposed above and below the light source to remove shadow on the face, and a diffusion plate is used to minimize the glare and rejection of the subject. A diffusion unit for converting the signal; In the illuminating device for illuminating the face with reflections and reflections by using the prism and convex lens, the convex lens and the prism sheet are composed of a stepping motor which can change the direction of light irradiation. The diffusing part is composed of a combination of diffuser plate and reflector And the frame structure between the light source and the diffusing portion is subjected to light reflection treatment by reflection sheet adhesion, chrome plating, and mirror-surface treatment. The light is vertically disposed to eliminate shadowing on the face and minimize the glare and rejection of the subject .

Description

TECHNICAL FIELD [0001] The present invention relates to a face illumination device,

More particularly, the present invention relates to a face lighting system for a face recognition system, and more particularly, to a face lighting system for a face recognition system, The present invention relates to an illuminating device for illuminating a face that is refracted by using a prism and a convex lens for increasing the illuminance of the illuminating light.

Generally, facial recognition is a function that processes face images input from a camera and compares them with a reference face image to determine whether or not the user is a person. The quality of the facial image input from the camera has a great influence on the performance.

In addition, a hardware essential element of the face recognition system is a camera which is an input device. In addition to not being able to capture images of a camera without light, it also receives interference due to light scattering. In case of receiving too strong light, spot phenomenon, etc., is very important.

The face recognition system (FIG. 1), which does not use the conventional illumination, differs in various types of reflected light, overexposure, overexposure, underexposure, etc., depending on the setting angle and ambient illuminance, The face recognition result is not constant, and when one or two surface light sources are arranged horizontally (Fig. 3), the distance between the illuminations in consideration of the irradiation angle of the light The angle of incidence is easily entered into the angle of reflection of the eyeglasses and the image is formed. Since it is necessary to sufficiently increase the light amount of the contrast light to be illuminated to the subject, . Also, if only one light is installed, it will cause shadow generation. Lastly, a pair of vertical line lights (FIG. 2) are suitable for eliminating shadows and providing adequate illumination by illuminating both the upper and lower left and right sides. However, since the light source causes glare and rejection to the subject, (Fig. 5).

On the same principle, a hot spot phenomenon occurs in which light is focused on a specific part of the face. As a result, it is a fatal factor that hinders the performance of face recognition. SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a technique and a method related to illumination which are used for eliminating the facial recognition performance inhibiting factors and collecting a sufficient amount of light in a direction to be irradiated.

In order to solve the above-described problems, the present invention provides a light source device that smoothly expands light from a point light source provided from an LED to eliminate glare and rejection, uses a convex lens to collect scattered light sources to maximize light amount, (Hereinafter referred to as " prism sheet "), and transmits the light to the required angle through adjustment of the angle of the prism, thereby resolving the incidence and the reflected light by utilizing the difference in position between the light source and the face The purpose.

In order to improve the reflected light appearing on the face of the subject and the visible light reflected on the glasses, the illumination light includes an LED light source; A convex lens for receiving and diffusing light of the LED light source; A prism sheet having at least one prism arranged to receive the diffused light and change its direction; A diffusion unit configured by a combination of a diffusion plate and a reflector and arranged to vertically place the light to eliminate shadowing on a face and convert the light of the LED light source that is a point light source into a surface light source using the diffusion plate; In the illuminating device for recognizing the face and the reflected light by using the prism and the convex lens, the convex lens and the prism sheet are further provided with a stepping motor capable of changing the direction of light irradiation. The sensor value of the sensor that senses the reflected light appearing in the light source and the previously stored position or angle data capable of adjusting the reflected light according to the irradiation direction are received from the microcomputer or the like,
In addition to being able to change the direction of light irradiation on the convex lens and the prism sheet using the stepping motor, the light source is usually an LED, usually a normal power supply, By using a diode-based circuit, it is possible to change the average DC signal and to control the blinking phase,
The frame structure between the LED light source and the diffuser plate is subjected to a light reflection process by a reflection sheet adhesion, a chrome plating, and a mirror-surface treatment method, and the light is vertically disposed to remove shadow on the face, The diffusing plate is used to convert the light of the LED, which is a point light source, into a planar light source, and the converted light intensively transmits the light diffused through the convex lens to the prism, And coarse light is refracted and refracted in an intended direction according to the angle of the prism.

The illuminating device for recognizing the face and the reflected light by using the prism and the convex lens according to the present invention is an apparatus for providing an optimal illumination condition to the camera of the face recognition system and minimizes the interference from the influence of the surrounding illumination And it is possible to solve the reflected light or the image of the face caused by the influence of the illumination itself.

Further, according to the present invention, it is possible to concentrate light as much as possible on a necessary portion and efficiently irradiate a sufficient amount of light, and the effect of glare can be minimized because the directions of the light source and the irradiation angle are different. As a result, the camera can appropriately provide the required light, thereby allowing the system to exhibit optimum recognition performance and to solve various errors caused by the influence of ambient light.

In particular, illumination is indispensable in the field of face recognition, which requires accuracy in the interior, such as the construction of an unmanned inspection ground using face recognition in immigration control of airports, ports, etc., boarding and transit. Accordingly, the present invention is expected to contribute to the performance enhancement of a more effective face recognition system by overcoming the deterioration factor of facial recognition performance.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing an outline of a face recognition system which does not use illumination according to the prior art.
FIG. 2 is a schematic diagram of a face recognition system using a pair of vertical lights according to the prior art; FIG.
FIG. 3 is a schematic diagram of a face recognition system using one or a pair of horizontal lights according to the related art. FIG.
FIG. 4 is a view showing an image of illumination applied to the glasses when the horizontal illumination according to the prior art is used. FIG.
5 is a view showing an image of illumination applied to glasses when using vertical illumination according to the prior art.
6 is a view showing an operation principle of a face lighting apparatus according to the present invention.
7 is a front view of a lighting device for face detection according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

The illumination according to the present invention includes an LED light source 10, a convex lens 20 for receiving and diffusing the light of the LED light source 10, at least one prism 30 for receiving the diffused light, And a diffusion unit for converting the light from the LED light source 10, which is a point light source, into a surface light source.

The diffusing portion is composed of a combination of the diffuser plate 40 and the reflecting mirror 45.

In addition, the direction of the light source 10 and the direction of light irradiation may be adjusted differently through illumination to improve the reflected light appearing on the face of the subject and the reflection incident on the glasses.

The convex lens and the prism sheet according to the present invention may further include a stepping motor capable of changing the direction of light irradiation. The sensor and the sensor value of the sensor for sensing the reflected light appearing on the face of the subject, The pre-stored position or angle data capable of adjusting the reflected light can be received from a microcomputer or the like to improve the incidence.

Further, the convex lens and the prism sheet are not only capable of changing the light irradiation direction, but also the light source 10 is an LED, which is usually supplied with a general power supply, The PWM signal may be stored in a database by a measurement sensor (optical sensor) and applied when necessary. Alternatively, the PWM signal may be converted into an average DC signal by using a circuit using a Schottky diode to control the flickering of the PWM signal.

In detail, the light from the point light source 10 provided from the LED according to the present invention is smoothly spread through the diffusion plate 40 to eliminate the glare and rejection, and the scattered light source is collected using the convex lens 20, 30) or prism sheet (hereinafter referred to as " prism "), and transmits light to the required angle through angle adjustment of the prism.

In addition, the illuminating device for recognizing the face and the reflected light by using the prism 30 and the convex lens 20 according to the present invention for improving the reflected light and the reflected light is composed of a single row of prisms 30, A prism sheet in which prisms 30 are closely arranged is used, and the angle is designed according to the angle of the light source and the subject.

6, the illumination device for illuminating the face and the reflected light using the prism 30 and the convex lens 20 according to the present invention includes a frame structure 5 between the light source and the diffusion plate 40 ) Is subjected to a light reflection treatment by reflection sheet bonding, chrome plating, mirror-surface treatment, etc. to maximize the light efficiency, and the light 10 of the LED, which is a point light source, is converted into a surface light source by using the diffusion plate 40 The converted light is transmitted to the prism 30 through the convex lens 20 and the light passing through the prism 30 is refracted and refracted in the intended direction according to the angle of the prism 30.

Hereinafter, the structure and operation of an embodiment of the present invention will be described with reference to the accompanying drawings, and the structure and operation of the present invention shown and described in the drawings will be described as at least one embodiment. The technical idea of the invention and its core structure and action are not limited.

5: Frame structure
10: LED light source
20: convex lens
30: prism lens
40: diffusion plate
45: reflector

Claims (3)

In order to improve the reflected light appearing on the face of the subject and the reflected light reflected on the glasses by adjusting the direction of the light source and the direction of the light irradiation differently through the illumination,
The illumination
An LED light source;
A convex lens for receiving and diffusing light of the LED light source;
A prism sheet having at least one prism arranged to receive the diffused light and change its direction;
A diffusion unit configured by a combination of a diffuser plate and a reflector to remove the shadow on the face by vertically arranging the light and to convert the light of the LED light source that is a point light source into a surface light source using the diffuser;
In the illuminating device for recognizing the face and the reflected light by using the prism and the convex lens, the convex lens and the prism sheet are further provided with a stepping motor capable of changing the direction of light irradiation. The sensor value of the sensor that senses the reflected light appearing in the light source and the previously stored position or angle data capable of adjusting the reflected light according to the irradiation direction are received from the microcomputer or the like,
In addition to being able to change the direction of light irradiation on the convex lens and the prism sheet using the stepping motor, the light source is usually an LED, usually a normal power supply, By using a diode-based circuit, it is possible to change the average DC signal and to control the blinking phase,
The frame structure between the LED light source and the diffuser plate is subjected to a light reflection process by a reflection sheet adhesion, a chrome plating, and a mirror-surface treatment method, and the light is vertically disposed to remove shadow on the face, And the light 10 is converted into a planar light source by using the diffusing plate, and the converted light intensively transmits the light diffused through the convex lens to the prism, And the light passing through the prism is refracted and refracted in an intended direction according to the angle of the prism.
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